Octopus-Like Tentacles Help Cancer Cells Invade the Body
upstart writes:
Octopus-like tentacles help cancer cells invade the body:
Using octopus-like tentacles, a cell pushes toward its target, a bacterium, like a predator tracking down its prey. The scene could be playing out in a nature programme. Instead the pursuit is being observed at the nano-scale through a microscope at the University of Copenhagen's Niels Bohr Institute. The microscope recording shows a human immune cell pursuing and then devouring a bacterium.
With their new study, a team of Danish researchers has added to the world's understanding of how cells use octopus-like tentacles called filopodia to move around in our bodies. This discovery about how cells move had never been addressed. The study is being published today in the journal, Nature Communications.
"While the cell doesn't have eyes or a sense of smell, its surface is equipped with ultra-slim filopodia that resemble entangled octopus tentacles. These filopodia help a cell move towards a bacterium, and at the same time, act as sensory feelers that identify the bacterium as a prey," explains Associate Professor Poul Martin Bendix, head of the laboratory for experimental biophysics at the Niels Bohr Institute.
The discovery is not that filopodia act as sensory devices -- which was already well established -- but rather about how they can rotate and behave mechanically, which helps a cell move, as when a cancer cell invades new tissue.
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